Tire cure mold and method for manufacturing tire

ABSTRACT

A tire cure mold has a tire molding face, a mounting groove provided to the tire molding face and a stencil plate mounted into the mounting groove. The stencil plate has a front face that faces a cavity, a back face that faces a bottom face of the mounting groove, and a through hole extending from the front face to the back face. A recessed portion for forming a protruding identification mark on the outer surface of the tire is provided to the front face. A first protruding portion corresponding to the recessed portion is provided to the back face. A second protruding portion that protrudes toward the bottom face of the mounting groove is provided to an outer edge portion of the stencil plate at least at a periphery of the through hole.

BACKGROUND OF THE INVENTION Field of the Invention

The present disclosure relates to a tire cure mold including a stencilplate mounted to a tire molding face and a method for manufacturing atire by use of the tire cure mold.

Description of the Related Art

Identification marks formed by letters or symbols indicating a tiresize, a load index, a name of a manufacturer, and week and year ofmanufacture are formed on an outer surface of a pneumatic tire. Asdescribed in Patent Documents 1 to 4, a stencil plate (also referred toas “serial plate”) formed by a metal thin plate is used to form theidentification marks in some cases. In cure, an uncured tire is pressedagainst the stencil plate mounted to a tire molding face of a tire curemold and the identification marks are formed by transfer.

As shown in FIG. 8, the stencil plate 8 has a front face 81 facing acavity 86 and a back face 82 facing a bottom face 21 of a mountinggroove 2. Recessed portions 84 for forming the identification marks areformed in the front face 81. In this way, the protruding identificationmarks are formed in an outer surface of the tire. The stencil plate 8 isproduced by embossing the metal thin plate. As a result, protrudingportions 85 corresponding to the recessed portions 84 are formed on theback face 82. In this manner, the stencil plate 8 for forming theprotruding identification marks on the outer surface of the tire isprovided with the protruding portions 85 protruding toward the bottomface 21 of the mounting groove 2.

At end portions in a longitudinal direction LD of the stencil plate 8,through holes 83 into which bolts 9 are mounted are formed. If a workerfastens the bolts 9 tightly, the stencil plate 8 may warp as shown by abroken line BL in some cases. Studies show that a central part in thelongitudinal direction LD of the stencil plate 8 lifts because theprotruding portions 85 push the bottom face 21 of the mounting groove 2near the bolts 9 or drawn portions 87 of the stencil plate 8 are pushedagainst the bottom face 21. If the stencil plate 8 warps, a clearance isformed at the central part and therefore rubber may enter the mountinggroove 2 in the cure, which may ruin an appearance of the tire.

PRIOR ART DOCUMENTS Patent Documents

Patent Document 1: JP-A-2018-149744

Patent Document 2: JP-A-2014-133402

Patent Document 3: JP-A-2014-172360

Patent Document 4: JP-A-2007-38528

SUMMARY OF THE INVENTION

It is an object of the present disclosure to provide a tire cure mold inwhich warping of a stencil plate can be suppressed and a method formanufacturing a tire by use of the tire cure mold.

The present disclosure provides a tire cure mold comprising a tiremolding face that comes in contact with an outer surface of a tire setin a cavity, a mounting groove provided to the tire molding face, and astencil plate mounted into the mounting groove, wherein the stencilplate has a front face that faces the cavity, a back face that faces abottom face of the mounting groove, and a through hole extending fromthe front face to the back face, a recessed portion for forming aprotruding identification mark on the outer surface of the tire isprovided to the front face, a first protruding portion corresponding tothe recessed portion is provided to the back face, and a secondprotruding portion that protrudes toward the bottom face of the mountinggroove is provided to an outer edge portion of the stencil plate atleast at a periphery of the through hole. With this structure, thesecond protruding portion comes in contact with the bottom face of themounting groove when a worker fastens a fixing member tightly, whichsuppresses the warping of the stencil plate.

It is preferable that the second protruding portion is providedthroughout a circumference along the outer edge portion of the stencilplate. With this structure, it is possible to further effectivelysuppress the warping of the stencil plate.

From a viewpoint of appropriately suppressing the warping of the stencilplate, a protruding height of the second protruding portion ispreferably equal to or greater than a protruding height of the firstprotruding portion.

The second protruding portion may be provided by bending a side endportion of the stencil plate in a U shape. In this case, it is possibleto provide the second protruding portion by embossing the stencil platewithout using a separate member.

The second protruding portion may be provided by rolling a side endportion of the stencil plate toward a side of the back face. In thiscase, it is possible to provide the second protruding portion by bendingthe stencil plate without using a separate member.

The present disclosure provides a method for manufacturing a tire,comprising a step of curing the tire by use of the tire cure moldmentioned above. By use of the above-described tire cure mold, thewarping of the stencil plate is suppressed. As a result, it is possibleto prevent formation of a clearance which allows entry of rubber intothe mounting groove to thereby improve an appearance of the tire.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a vertical sectional view schematically showing an example ofa tire cure mold according to the present disclosure;

FIG. 2 is a plan view (a view from a direction of arrow X in FIG. 1)showing a part of an inner face of a side mold portion;

FIG. 3A is a sectional view from a direction of arrow A-A in FIG. 2;

FIG. 3B is a sectional view from a direction of arrow B-B in FIG. 2;

FIG. 3C is a sectional view from a direction of arrow C-C in FIG. 2;

FIG. 4 is a view of a stencil plate in FIG. 3B separate from a mountinggroove;

FIG. 5 is a plan view showing a part of an inner face of a side moldportion in another embodiment;

FIG. 6A is a sectional view from a direction of arrow D-D in FIG. 5;

FIG. 6B is a sectional view from a direction of arrow E-E in FIG. 5;

FIG. 6C is a sectional view from a direction of arrow F-F in FIG. 5;

FIG. 7 is a view of a stencil plate in FIG. 6B separate from a mountinggroove;

FIG. 8 is a half sectional view of an example of a prior-art stencilplate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

An embodiment of the present disclosure will be explained with referenceto the drawings.

FIG. 1 shows a section of a tire cure mold 10 (hereinafter merelyreferred to as “mold 10” in some cases) along a tire meridian. The mold10 is in a closed state. A tire T is set with a tire width directionoriented in a vertical direction. In FIG. 1, a left side corresponds toan outer side in a tire diametrical direction and a right sidecorresponds to an inner side in the tire diametrical direction. FIG. 2is a plan view from a direction of arrow X in FIG. 1 and shows a part ofan inner face of a side mold portion 12 positioned on a lower side. InFIG. 2, a left-right direction corresponds to a tire circumferentialdirection, an upward direction corresponds to the outward direction inthe tire diametrical direction, and a downward direction corresponds tothe inward direction in the tire diametrical direction. FIGS. 3A to 3Care sectional views from directions of arrows A-A, B-B, and C-C in FIG.2, respectively. FIG. 4 illustrates a stencil plate 3 in FIG. 3Bseparate from a mounting groove 2.

The mold 10 includes a tread mold portion 11 for molding a tread portionof the tire T, paired side mold portions 12, 13 for molding sidewallportions of the tire T, and paired bead rings 14, 15 with which beadportions of the tire T are fitted. The mold 10 has a tire molding face 1that comes in contact with an outer surface of the tire T set in acavity 16. The tire molding face 1 includes an inner face of the treadmold portion 11, inner faces of the side mold portions 12, 13, and innerfaces of the bead rings 14, 15. Recessed and protruding portions (notshown) for forming a tread pattern on the tread face of the tire T areprovided to the inner face of the tread mold portion 11.

An example of a material of the inner face of the tread mold portion 11is an aluminum material. The aluminum material is a concept including analuminum alloy in addition to a pure aluminum raw material, for example,there can be listed up Al—Cu, Al—Mg, Al—Mg—Si, Al—Zn—Mg, Al—Mn andAl—Si. An example of a material of the inner faces of the side moldportions 12, 13 and a material of the inner faces of the bead rings 14,15 is a steel such as a rolled steel for a general structure (e.g.,SS400).

The mold 10 has the tire molding face 1 that comes in contact with theouter surface of the tire T set in the cavity 16, the mounting groove 2formed in the tire molding face 1, and the stencil plate 3 mounted intothe mounting groove 2. The mounting groove 2 is formed by locallyrecessing a part of the tire molding face 1. In the embodiment, themounting groove 2 is formed in the inner face of the side mold portion12 which is the tire molding face 1. The mounting groove 2 has a bottomface 21 and wall faces 22 rising from the bottom face 21. Internalthreaded holes 23 into which bolts 4 as fixing members are mounted areformed in the bottom face 21.

The stencil plate 3 is formed by a plate member made of metal such asstainless steel and aluminum. Although a thickness T3 of the stencilplate 3 is 1.0 mm or smaller, for example, and typically 0.8 mm orsmaller, the thickness T3 may be 0.7 mm or smaller. The thickness T3 ispreferably 0.2 mm or more and best preferably 0.5 mm or more from aviewpoint of imparting an appropriate degree of strength to the stencilplate 3. The stencil plate 3 has a laterally long shape having a greaterlength L3 in the tire circumferential direction than a width W3 in thetire diametrical direction. The length L3 and the width W3 are set todimensions greater than a length in the tire circumferential directionand a width W2 in the tire diametrical direction of the mounting groove2 by about 0.1 to 0.3 mm, for example, respectively. Although thestencil plate 3 is curved in an arc shape along the tire circumferentialdirection, the shape of the stencil plate 3 is not limited to this shapeand may be a shape extending straight in a longitudinal direction LD.

The stencil plate 3 has a front face 31 facing the cavity 16, a backface 32 facing the bottom face 21 of the mounting groove 2, and throughholes 33 extending from the front face 31 to the back face 32. Recessedportions 34 for forming protruding identification marks on the outersurface of the tire T are formed in the front face 31. In cure, theouter surface of an uncured tire is pressed against the front face 31 ofthe stencil plate 3 and the identification marks are formed inprotruding shapes by transfer. In an example shown in the embodiment,the identification marks are formed by a string of letters, “TT”. Theidentification marks are not limited to letters and may be symbols,patterns, and the like.

The recessed portions 34 are formed to be dented by embossing from theside of the front face 31. Depths D34 of the recessed portions 34 areset to 0.3 to 1.2 mm, for example. The depths D34 are dimensions fromthe front face 31. On the back face 32, protruding portions 35(corresponding to first protruding portions) corresponding to therecessed portions 34 are provided. The protruding portions 35 are formedas a result of forming the recessed portions 34 by denting. Therefore,the protruding portions 35 are the recessed portions 34 seen from theside of the back face 32 of the stencil plate 3. Protruding heights H35of the protruding portions 35 are substantially equal to the depths D34.The protruding heights H35 are dimensions from the back face 32. Theprotruding heights H35 are smaller than a depth D2 of the mountinggroove 2.

In the embodiment, at opposite end portions in the longitudinaldirection LD of the stencil plate 3, the through holes 33 into whichbolts 4 are mounted are provided. The stencil plate 3 is detachablymounted to the tire molding face 1 by use of the bolts 4. To change theidentification marks as in the case of renewing week and year ofmanufacture, the stencil plate 3 is detached from the tire molding face1 and another stencil plate having recessed portions for formingdifferent identification marks is mounted. Although top faces of thebolts 4 are disposed to be flush with the tire molding face 1, positionsof the top faces are not limited to these positions. For example, thetop faces may be close to the bottom face 21 of the mounting groove 2.

As already described, the stencil plate 3 is mounted to the tire moldingface 1 by use of the bolts 4. A protruding portion 36 (corresponding toa second protruding portion) protruding toward the bottom face 21 of themounting groove 2 is provided to an outer edge portion of the stencilplate 3 at least at peripheries of the through holes 33 so that thestencil plate 3 does not warp even when a worker fastens the bolts 4excessively tightly. If the bolts 4 are fastened tightly, the protrudingportion 36 comes in contact with the bottom face 21, which suppressesthe warping of the stencil plate 3. As a result, it is possible toprevent formation of a clearance which allows entry of rubber to therebyimprove an appearance of the tire after the cure.

In the embodiment, the protruding portion 36 is provided throughout acircumference along the outer edge portion of the stencil plate 3. Inother words, the protruding portion 36 is formed in an annular shape insuch a manner as to edge a periphery of the back face 32. With thisstructure, the protruding portion 36 can come in contact with the bottomface 21 throughout the circumference of the stencil plate 3, whichfurther effectively suppresses the warping. However, the protrudingportion 36 only has to be provided at least at the peripheries of thethrough holes 33. Therefore, the protruding portion 36 may be providedonly in a C-shaped area 51, paired arc-shaped areas 52, 52 facing eachother, or a U-shaped area 53 which is a combination of the C-shaped area51 and the arc-shaped areas 52, 52 shown in FIG. 2, for example.

If the protruding portion 36 is provided along the outer edge portion ofthe stencil plate 3, deformation of the outer edge portion of thestencil plate 3 is suppressed in the cure, which prevents formation ofunintended rubber burrs. The protruding portion 36 provided throughoutthe circumference is highly effective at the improvement. On the otherhand, if the protruding portion is not provided along the outer edgeportion of the stencil plate 3 (see a broken-line circle 90 in FIG. 8,for example), the outer edge portion of the stencil plate 3 may bepushed and deformed by the rubber in the cure and the unintended rubberburrs may be formed.

From a viewpoint of appropriately suppressing the warping of the stencilplate 3, a protruding height H36 of the protruding portion 36 ispreferably equal to or greater than the protruding heights H35 of theprotruding portions 35. If the protruding height H36 is greater than theprotruding heights H35, the protruding portion 36 is likely to come incontact with the bottom face 21 earlier than the protruding portions 35,which effectively suppresses the warping. The protruding height H36 issmaller than the depth D2 of the mounting groove 2. The sum (H36+T3) ofthe protruding height H36 and the thickness T3 is preferably equal to orsmaller than the depth D2. The protruding height H36 is a dimension fromthe back face 32.

The protruding portion 36 is formed by bending a side end portion of thestencil plate 3 in a U shape. An end face of the side end portion facesthe cavity 16. The protruding portion 36 can be formed by embossing thestencil plate 3 and therefore a separate member is not required. Arecessed portion 37 corresponding to the protruding portion 36 on theback face 32 is formed in the front face 31. The recessed portion 37 isformed as a recessed groove having a semicircular sectional shape. Onthe outer surface of the tire T, a bulge made of the rubber entering therecessed portion 37 is formed to surround the identification marks.Because the bulge is formed to have the semicircular sectional shape,the bulge looks better than the rubber burrs formed unintendedly anddoes not ruin the appearance of the tire T after the cure.

FIGS. 5 to 7 show a modification in which a protruding portion 36corresponding to the second protruding portion has a different shape.FIG. 5 is a plan view showing a part of an inner face of a side moldportion 12 and corresponds to FIG. 2 (i.e., the plan view from thedirection of arrow X in FIG. 1) in the above embodiment. FIGS. 6A to 6Care sectional views from directions of arrows D-D, E-E, and F-F in FIG.5, respectively. FIG. 7 illustrates a stencil plate 3 in FIG. 6Bseparate from a mounting groove 2. Other than the structures describedbelow, the modification has similar structures and effects to those inthe above described embodiment.

In the example shown in FIGS. 5 to 7, a protruding portion 36 is formedby rolling a side end portion of the stencil plate 3 toward the side ofa back face 32. The protruding portion 36 can be formed by bending thestencil plate 3 and therefore a separate member is not required. Theprotruding portion 36 is formed in a substantially annular shape and anend face of the side end portion faces a cavity 16. Therefore, the endface of the stencil plate 3 is not exposed and there is no possibilitythat the end face hurts fingers of a worker. The protruding portion 36formed by rolling the side end portion toward the side of the back face32 may be formed in a C shape or a helical shape.

A method for manufacturing the tire by using the tire cure mold 10includes a step of curing the tire T by use of the mold 10, and moreconcretely, a step of setting the uncured tire in the cavity 16 andperforming the cure by heating and pressurizing the uncured tire. Thetire is expanded and deformed by inflation of a bladder and the outersurface of the tire comes to push the tire molding face 1. On the outersurface of the cured tire, the identification marks are formed by thestencil plate 3.

Although the mounting groove 2 into which the stencil plate 3 is mountedis formed in the inner face of the side mold portion 12 positioned onthe lower side in the example shown in the above described embodiment, amounting groove may be formed in the inner face of the side mold portion13 positioned on the upper side in place of or in addition to themounting groove 2. The mounting groove 2 into which the stencil plate 3is mounted may be formed in the inner face of the tread mold portion 11or in the inner faces of the bead rings 14, 15.

Although a mold structure including the tread mold portion 11 and thepaired side mold portions 12, 13 is shown as an example in the abovedescribed embodiment, the mold does not necessarily have to have thisstructure and a mold structure split into upper and lower two portionsat a center of a tread mold portion may be employed, for example.

The above-described tire cure mold is equivalent to a normal tire curemold except that the stencil plate mounted into the mounting groove inthe tire molding face is formed as described above. Therefore, any ofprior-art known shapes, materials, mechanisms, and the like can be used.

The present invention is not limited to the embodiment mentioned above,but can be improved and modified variously within the scope of thepresent invention.

What is claimed is:
 1. A tire cure mold comprising: a tire molding facethat comes in contact with an outer surface of a tire set in a cavity; amounting groove provided to the tire molding face; and a stencil platemounted into the mounting groove, wherein the stencil plate has a frontface that faces the cavity, a back face that faces a bottom face of themounting groove, a side end portion, and a through hole extending fromthe front face to the back face, a recessed portion disposed on thefront face, the recessed portion forming a protruding mark on the outersurface of the tire, a first protruding portion corresponding to therecessed portion is disposed on the back face, and a second protrudingportion is disposed at an outer edge portion of the stencil plate atleast at a periphery of the through hole, the second protruding portionbeing bent to have the side end portion of the stencil plate be in a Ushape and an end face of the side end portion of the stencil platefacing the cavity.
 2. The tire cure mold according to claim 1, whereinthe second protruding portion is provided throughout a circumferencealong the outer edge portion of the stencil plate.
 3. The tire cure moldaccording to claim 1, wherein a protruding height of the secondprotruding portion is equal to a protruding height of the firstprotruding portion.
 4. The tire cure mold according to claim 1, whereina protruding height of the second protruding portion is greater than aprotruding height of the first protruding portion.
 5. A method formanufacturing a tire, comprising a step of curing the tire by use of thetire cure mold according to claim
 1. 6. A tire cure mold comprising: atire molding face that comes in contact with an outer surface of a tireset in a cavity; a mounting groove provided to the tire molding face;and a stencil plate mounted into the mounting groove, wherein thestencil plate has a front face that faces the cavity, a back face thatfaces a bottom face of the mounting groove, a side end portion, and athrough hole extending from the front face to the back face, a recessedportion disposed on the front face, the recessed portion forming aprotruding mark on the outer surface of the tire, a first protrudingportion corresponding to the recessed portion is disposed on the backface, and a second protruding portion is disposed at an outer edgeportion of the stencil plate at least at a periphery of the throughhole, the second protruding portion having a substantially annular shapewith the side end portion being rolled toward a side of the back faceand an end face of the side end portion of the stencil plate facing thecavity.